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Influence of wind barrier on the transient aerodynamic performance of high-speed trains under crosswinds at tunnel–bridge sections

Weichao Yang, E Deng, Xuhui He, Lu-sen Luo, Zhihui Zhu, You‐Wu Wang, Zhitang Li

2021Engineering Applications of Computational Fluid Mechanics24 citationsDOIOpen Access PDF

Abstract

Porous wind barriers (PWBs) are gradually applied to tunnel–bridge–tunnel infrastructures (TBTIs) along high-speed railway lines. Due to the remarkable aerodynamic effect of high-speed trains (HSTs), the windproof performance of a PWB at tunnel–bridge section (TBS) is particularly critical when a HST passes through the TBTI under crosswind. And it seems to be easily ignored by researchers. This study aims to determine the influence mechanism of the PWB in the TBS. A CFD dynamic model of air–train–PWB was built based on porous media theory, and its reliability is verified by model and field tests. The main results are as follows: the corresponding variation amplitudes of the train’s aerodynamic load coefficients are reduced by 36–95% when a PWB is set in the TBS; adopting the same design parameters along the full-length PWB on the TBTI is unreasonable; the PWB height and porosity in the TBS must be increased and reduced more than 33%, respectively, to achieve equivalent windproof performance. The conclusions in this paper can provide a preliminary idea for the optimization design of the PWB on the TBTI.

Topics & Concepts

CrosswindTrainAerodynamicsWind tunnelEngineeringStructural engineeringHigh speed trainBridge (graph theory)Computational fluid dynamicsTransient (computer programming)Railway tunnelWind speedAutomotive engineeringMarine engineeringComputer scienceAerospace engineeringMeteorologyMedicinePhysicsGeographyTransport engineeringInternal medicineOperating systemCartographyAerodynamics and Fluid Dynamics ResearchWind and Air Flow StudiesAeolian processes and effects